Uranium foils were attached to the cathode of a glow discharge apparatus. A plasma of either hydrogen or deuterium ions was used to bombard the uranium. The rates of alpha, beta, and gamma radiation emissions were significantly greater for the bombarded uranium than for the original material.

Here is a translation of a Nikkei Shimbun article by me and Mr. Google. The original Japanese text is below. I have not translated the figure. I may do that on Wednesday. Cold fusion: overturning the conclusion that it was “fake”After 30 years, a series…

A method may include the steps of supplying current to the electrodes of an electrochemical cell according to a first charging profile, wherein the electrochemical cell has an anode, cathode, and electrolytic solution; maintaining a generally constant current between the electrodes; exposing the cell to an external field either during or after the termination of the deposition of deuterium absorbing metal on the cathode; and supplying current to the electrodes according to a second charging profile during the exposure of the cell to the external field. The electrolytic solution may include a metallic salt including palladium, and a supporting electrolyte, each dissolved in heavy water. The cathode may comprise a second metal that does not substantially absorb deuterium, such as gold. The external field may be a magnetic field.

New results for glow discharge in deuterium calorimetry are presented. In separate experiments a heat output five times exceeding the input electric power was observed. The result for the charged particle spectrum measurement is presented. Charged particles with energies up to 18 MeV and an average energy of 2-4 MeV were seen. Beams of gamma-rays with energies of about 200 keV and a characteristic X-ray radiation were registered. The summed energy of the registered products is three orders short of the values needed to explain the calorimetric results.

Cold fusion: overturning the conclusion that it was “fake” After 30 years, a series of confirmations Jan. 14, 2018 Nikkei Shimbun morning edition In “cold nuclear fusion,” hydrogen atoms generate a nuclear fusion reaction at room temperature to produce energy. When this phenomenon was first observed in 1989, many researchers began studying it, but the experimental results were not replicated and the boom quickly subsided. Roughly 30 years have passed since then. The occurrence of excess heat, which is thought to be caused by a nuclear reaction, has been repeatedly confirmed, mainly in Japanese research groups which have continued this research with quiet dedication, and which have uncovered clues about the nature of the reaction. Observations of excess heat which is thought to be caused by a hydrogen fusion reaction have made by members of a research group, including Toyota’s technological think tank Technova (Tokyo, Chiyoda-ku), Nissan Motor, Tohoku University, Kobe University, Kyushu University, Nagoya University. They obtained research funding from the New Energy and Industrial Technology Development Organization (NEDO) and conducted experiments for two years, ending in October 2017.

Jan. 14, 2018 Nikkei Shimbun morning edition In "cold nuclear fusion," hydrogen atoms generate a nuclear fusion reaction at room temperature to produce energy. When this phenomenon was first observed in 1989, many researchers began studying it, but the experimental results were not replicated and the boom quickly subsided. Roughly 30 years have passed since then. The occurrence of excess heat, which is thought to be caused by a nuclear reaction, has been repeatedly confirmed, mainly in Japanese research groups which have continued this research with quiet dedication, and which have uncovered clues about the nature of the reaction.

The invention concerns the development of a material suitable to enhance the interface electric field during polarization processes of the same material, such as, for instance, during a 'glow discharge' or an electrolysis. The material comprises a metal matrix capable to absorb hydrogen and its isotopes, preferably palladium, on the surface of which there are provided, by any suitable method, some inclusions of dielectric material or in any case some surface defects, having a fixed size and space distribution, and of such a nature ad they result in a suitable dispersion of the dielectric constant and, in addition, shows a surface rugosity. Such conditions are required for the material to result in a particularly high localization of the interface electric field during polarization processes.

Full-text (PDF) | Significant level excess-heat evolution data were obtained for PNZ-type, CNZ-type CNS-type samples at 200-400℃ of RC (reaction chamber) temperature, while no excess heat power data were obtained for single nano-metal samples as PS-type and NZ-type. By usin

Sharing your scoops to your social media accounts is a must to distribute your curated content. Not only will it drive traffic and leads through your content, but it will help show your expertise with your followers.

Integrating your curated content to your website or blog will allow you to increase your website visitors’ engagement, boost SEO and acquire new visitors. By redirecting your social media traffic to your website, Scoop.it will also help you generate more qualified traffic and leads from your curation work.

Distributing your curated content through a newsletter is a great way to nurture and engage your email subscribers will developing your traffic and visibility.
Creating engaging newsletters with your curated content is really easy.